tt真人|百家乐赌博

    <sub id="xjxpf"><listing id="xjxpf"><menuitem id="xjxpf"></menuitem></listing></sub>

    <address id="xjxpf"></address><form id="xjxpf"><nobr id="xjxpf"><th id="xjxpf"></th></nobr></form>

      <address id="xjxpf"><address id="xjxpf"><nobr id="xjxpf"></nobr></address></address><noframes id="xjxpf"><form id="xjxpf"></form>
      <address id="xjxpf"><address id="xjxpf"></address></address>

        <form id="xjxpf"></form>

          <address id="xjxpf"></address>
          <listing id="xjxpf"><listing id="xjxpf"><menuitem id="xjxpf"></menuitem></listing></listing>

              <noframes id="xjxpf"><form id="xjxpf"><nobr id="xjxpf"></nobr></form>

              <noframes id="xjxpf"><form id="xjxpf"></form>
              <address id="xjxpf"></address>
              <address id="xjxpf"><nobr id="xjxpf"><progress id="xjxpf"></progress></nobr></address><form id="xjxpf"><th id="xjxpf"><progress id="xjxpf"></progress></th></form>

              <address id="xjxpf"></address>
              <noframes id="xjxpf"><form id="xjxpf"></form><form id="xjxpf"></form>
              Jason Doucette / Xona Games
               
              hometown – Yarmouth, NS, Canada
              residence – Seattle, WA, USA
              university – Acadia University
              college – COGS
              contact – (other methods)
                  social networks
                  tech – Project/Games · Graphics Tech · Artificial Intelligence · World Records/Number Theory
              personal – Home · Resume · Transcripts · Contact
              twin – Matthew Doucette of Xona Games
              old – Petzold's Programming Windows 5th ed Errata · Domain Hacks · Wallpapers



              World Records - Palindromes

              Back to Main Resume Page


              Record Attempt Time Commenced Personal Achievement
              1. 196 Palindrome Quest August 4, 1999 Former WORLD RECORD achieved September 6, 1999.
              Current WORLD RECORD achieved by Wade VanLandingham.
              2. Most Delayed Palindrome August 13, 1999 My First WORLD RECORD achieved September 3, 1999.
              My Latest WORLD RECORD achieved November 30, 2005.
              Current WORLD RECORD achieved by Rob van Nobelen (April 26, 2019).

              What is a Palindrome?

              A palindrome is something that reads the same forward as it does backward. It originated in the early 17th century from the Greek word palindromos (palíndromos), literally meaning "running back again."

              Numbers:
              Words:
              Phrases:
              DNA Sequence:
              "52125", "4334", "8", and "1758571".
              "Radar", "I", "Eve", "Deed", and the world's longest in the English language: "Redivider".
              "Madam, I'm Adam", and the timeless classic: "A man, a plan, a canal... Panama".
              A segment of DNA in which the nucleotide sequence of one strand mirrors that of the complementary strand.

              (The world's longest palindromic sentence, based on the timeless classic, "A man, a plan, a canal... Panama", has been created by Peter Norvig. For more word, sentence, and phrase palindromes, please visit Jim Kalb's Palindrome Connection.)

              196 PALINDROME QUEST

              Numeric Palindromes

              In the April 1984 Scientific American "Computer Recreations" column, an article appeared about mathematical patterns (F. Gruenberger, Computer Recreations, "How to Handle Numbers with Thousands of Digits, and Why One Might Want To.", Scientific American, 250 [No. 4, April, 1984], 19-26.). Here's the algorithm:

              1. Pick a number.
              2. Reverse its digits and add this value to the original number.
              3. If this is not a palindrome, go back to step 2 and repeat.
              Do all numbers eventually become palindromes by this process? It was suggested that this is the case.

              Examples

              Most numbers become palindromes fairly quickly, in only a couple of steps:

              13
              1. 13 + 31 = 44



              64
              1. 64 + 46 = 110
              2. 110 + 011 = 121


              87
              1. 87 + 78 = 165
              2. 165 + 561 = 726
              3. 726 + 627 = 1353
              4. 1353 + 3531 = 4884

              In fact, about 80% of all numbers under 10,000 solve in 4 or less steps. About 90% solve in 7 steps or less. A rare case, number 89, takes 24 iterations to become a palindrome. It takes the most steps of any number under 10,000 that has been resolved into a palindrome:

              89
              1. 89 + 98 = 187
              2. 187 + 781 = 968
              3. 968 + 869 = 1837
              4. 1837 + 7381 = 9218
              5. 9218 + 8129 = 17347
              6. 17347 + 74371 = 91718
              7. 91718 + 81719 = 173437
              8. 173437 + 734371 = 907808
              9. 907808 + 808709 = 1716517
              10. 1716517 + 7156171 = 8872688
              11. 8872688 + 8862788 = 17735476
              12. 17735476 + 67453771 = 85189247
              13. 85189247 + 74298158 = 159487405
              14. 159487405 + 504784951 = 664272356
              15. 664272356 + 653272466 = 1317544822
              16. 1317544822 + 2284457131 = 3602001953
              17. 3602001953 + 3591002063 = 7193004016
              18. 7193004016 + 6104003917 = 13297007933
              19. 13297007933 + 33970079231 = 47267087164
              20. 47267087164 + 46178076274 = 93445163438
              21. 93445163438 + 83436154439 = 176881317877
              22. 176881317877 + 778713188671 = 955594506548
              23. 955594506548 + 845605495559 = 1801200002107
              24. 1801200002107 + 7012000021081 = 8813200023188

              The 196 Palindrome Quest (a.k.a. 196 Algorithm, 196 Problem)

              Does every number eventually become a palindrome? Nobody knows for sure, since it has never been proven. There are some numbers that do not appear to ever form a palindrome. The first one is 196. Such numbers are called Lychrels. The search to resolve this number has been referred to as the 196 Algorithm or the 196 Problem, but normally called the 196 Palindrome Quest.

              There are a few references to the 196 Palindrome Quest before the 1984 issue of Scientific American. Two references were found from a Math Central page:

              The 1973 paper states that Harborth said that Trigg checked all integers less than 10,000 in 1967 and found that 249 seemed to never form a palindrome. 196 would be the first of those 249 numbers.

              John Walker's Three Years Of Computing page states that 196 had originally been iterated over 10,000 times without yielding a palindrome. Later, this number had been carried through 50,000 reversals and additions by Paul C. Leyland yielding a number of more than 26,000 digits without producing a palindrome. Paul explains his program in an email to Wade VanLandingham on August 19, 2002:


              "The work you refer to was done about 20 years ago on a 4 MHz Z80-based machine running CP/M. The core reverse&add and the palindromicity detector were written in assembler and the I/O etc was written in Algol-60. The machine only had 32K of memory (actually rather a lot for those days) and I ran the program until it ran out of memory --- which explains the limit chosen for the number of iterations." - Paul C. Leyland


              Again, P. Anderton continued the process up to 70,928 digits (170,000+ iterations) without encountering a palindrome. (This Google Groups posting claims a 70,000 digit result was accomplished in 1987, so perhaps this was P. Anderton's effort.)


              The First Iterations of 196

              Here is 196 iterated 200 times for those of you who are curious.


              Three Years of Computing (196 taken to 1,000,000 digits)

              On August 12, 1987, John Walker commenced a program he created on a Sun 3/260 workstation (using a Motorola 68020 microprocessor) to take the search even further. Five minutes before midnight, on May 24, 1990, almost three years later, his program ended after 2,415,836 iterations, yielding a number 1,000,000 digits long - with no palindrome in sight. The next day, John Walker made this 1,000,000 digit number and his program available to people on a page on the Internet, Three Years Of Computing, for any who would like to continue his quest without redoing his three years of work.


              About Two Months of Computing (from 1,000,000 to 2,000,000 digits)

              With a interest in the palindrome quest since the 1984 issue of Scientific American, Tim Irvin found himself with access to a supercomputer, a Concurrent Computer Corporation Maxion model 9502, in 1995. Searching the Internet for work already completed on the palindrome quest, he found John Walker's web page. He 'borrowed' his program, and with the help of fellow programmer Larry Simkins, they put it to work again to continue the quest from the 1,000,000 digit number. On August 22, 1995, after about two months of calculations, the program stopped after having calculated 196 to 2,000,000 digits. With a difference of 8 years in computer generations, Tim's supercomputer achieved three times the amount of calculations (as required for John Walker's three years of work) in only two months. This number is available off of Tim's web page, About Two Months of Computing, for any person wishing to continue the quest themselves.


              Continuing the Quest (to 13,000,000 digits and beyond)

              I have never even seen a supercomputer, so why am I continuing the quest? Because I created an assembly language program that can perform the necessary computations on an average desktop computer faster than the unoptimized programs previously used on supercomputers can. (Please note that the original programs created to compute the 196 Palindrome Quest were made to be memory efficient, at the sacrifice of speed. Despite these concerns, I found that these programs missed certain optimizations that could have saved the same amount of memory with no speed sacrifices, as well as certain optimizations that had no bearing on memory use whatsoever).

              My program started calculating the 196 Palindrome Quest on Monday, August 9, 1999 on a Pentium II 266 MHz PC.

              The program reached the 1,000,000 digit mark in 1 day and 18 hours

              I am going to retest this time at some point, since my code was bugged, causing it write a total of 54 megabytes of junk to the screen and a data file, which slowed the calculations.

              The program reached the 2,000,000 digit mark in an additional 5 days and 10 hours.

              Both these numbers check out with John Walker's and Tim Irvin's work. I am 100% confident that my program is bug-free, I am going to continue the work for as long as I have access to idle time of a computer.

              The program reached the 3,000,000 digit mark in an additional 8 days and 7 hours.

              The program reached the 4,000,000 digit mark in an additional 8 days and 14 hours. This was achieved on Monday, September 6, 1999, breaking the previous record of 3.9 million digits (according to the rec.puzzles archive), 4 days quicker than expected, thanks to the help of a Celeron 400 MHz machine, on which the program ran for some of its processing.

              The program reached the 5,000,000 digit mark in an additional 13 days and 8 hours.

              The program is now running solely on the Celeron 400 MHz processor.

              The program reached the 6,000,000 digit mark in an additional 14 days and 4 hours.

              The program reached the 7,000,000 digit mark in an additional 26 days and 12 hours.

              The program reached the 8,000,000 digit mark in an additional 33 days and 23 hours.

              The program reached the 9,000,000 digit mark in an additional 59 days and 12 hours.
              (The increased length of time for this million digits is probably caused by the fact that the program was stopped and continued very many times during this period.)

              The program reached the 10,000,000 digit mark in an additional 34 days and 1 hour.

              The program reached the 11,000,000 digit mark in an additional 26 days and 3 hours.

              The program reached the 12,000,000 digit mark in an additional 28 days and 5 hours.

              The program reached the 13,000,000 digit mark in an additional 28 days and 23 hours.
              (The program had a little help of a Pentium III 450 MHz machine for this million digits, although the program can only be run on one machine at any given time.)

              My 13,000,000 digit mark is published in the November / December 2001 Issue of Yes Mag: Canada's Science Magazine for Kids:

              Page 16, Nov/Dec 2001 Issue, Yes Mag: Canada's Science Magazine for Kids
              Click to enlarge [75 dpi resolution image = 154 Kb]

              Click to enlarge [150 dpi resolution image = 452 Kb]

              The program was averaging over 12,000,000 single digit additions per second with the Celeron 400 MHz machine (i.e. it can add two 12,000,000 digit numbers in one second). That's over 1 trillion (1,000,000,000,000) single digit additions per day.


              Other Work - Ian J. Peter

              After my correspondence with Ian J. Peter, who is currently calculating all integers up to 2,000,000,000 out to 200,000 digits each, he started to improve his palindrome program. His hand optimized assembly program, running on an AMD Athlon 500MHz system runs from 4 to 8 times as fast as my program on an Intel Celeron 400MHz.

              Why such a huge speed increase? Several factors. His program has been largely optimized algorithmically, as well as in hand optimization at the assembly level - but I am not going to give out any secrets here; it is not for me to release, so please ask him instead. But I can say a few technical notes:

              My program uses flat-mode (unreal-mode) 32-bit addressing in 386-code, using Turbo Pascal 7.0, due to my lack of a compiler that allows true protected mode memory addressing. This is amusing, given that the Intel 80286 (i.e. 286) processor introduced this feature (My old Tandy 1000 SX had one of those). Ian is using protected-mode 32-bit addressing, running under Linux, and is taking advantage of the new instruction set on the newer machines.

              As far as hardware is concerned, this is the first time AMD has impressed me. I have an AMD K6-200MHz, which I am not impressed with. My 3Dfx VooDoo2 card sits and waits for the processor to hand it information. But, the Athlon is another story. It has 256 KB L1 cache (more L1 cache than Celerons have in L2 cache), which is 4 times the amount of regular Pentium III systems. It has 512 KB L2 cache, but can have as much as 8,192 KB. This does not mean you should go out and buy one. You should buy the processor that will benefit your type of work most. The nature of our palindrome programs - given that the code is very small, and that memory access is always in sequential order - benefit from the Athlon architecture even more so than normal applications or games.

              His program reached 1,000,000 digits in just over 5 hours, and reached 10,000,000 digits in just over 30 days, running on his dedicated 500 MHz Athlon.


              Other Work - István Bozsik

              István Bozsik found the same previous work from other people, mentioned above, that I did. It sparked his interest, and he quickly found that he could also make a program to run the 196 Palindrome Quest much faster than they did. He wrote his program on May 7, 2000.

              On his web page he shows that he took the quest to 6 million digits. Unfortunately, I had already passed 6 million digits with my own work. István had not been able to locate my web page via search engines until after his achievement. His page has lots of links to other web pages regarding palindromic numbers.


              Work Passed On - Wade VanLandingham (to 300,000,000 digits and beyond)
              I no longer have the processing time to continue the quest. I have given my 13.5 million digit record to Wade VanLandingham. He has taken this number, and continued it to over 300 million digits (almost 725 million iterations). He has compiled a lot of information from all kinds of sources regarding the 196 Palindrome Quest on his web page, 196 and Other Lychrel Numbers. It is worth a visit.


              196 Discussion - Message Board

              [Note: This message board is offline. If anyone is willing to host this message board, so it can continue to exist, please contact me.] Felipe Barone has created a message board for discussion the 196 Palindrome Quest. You may like to take a look around. I have some interesting thoughts regarding computation of the 196 Palindrome Quest on a network in the following thread: Processing Across a Network. [Internet Archive of Processing Across a Network thread.]

              FRIDAY, JANUARY 27, 2006 UPDATE:
              It has been done! Pierre-Andr?Laurent has created a networked 196 Palindrome Quest application: 196 and Other Lychrel Numbers - Distributed Software Comparisons

              MOST DELAYED PALINDROMIC NUMBER

              The Previous Record

              With the exception of my work, the only information on the Most Delayed Palindromic Number was found at Ian J. Peter's website: Search for the Biggest Numeric Palindrome.

              Before his work, the most delayed palindromic number that was known was 10,911. It takes 55 iterations to become a palindrome that is 28 digits long.

              After his extensive searching on all numbers from 1 to 9,999,999, he has found the following results:

              Previous Records - found by Ian J. Peter
              Number Iterations Resulting Palindrome
              147,996
              150,296
              1,000,689
              1,005,744
              1,017,501
              7,008,899
              9,008,299
              58
              64
              78
              79
              80
              82
              96
              8834453324841674761484233544388
              682049569465550121055564965940286
              796589884324966945646549669423488985697
              796589884324966945646549669423488985697
              14674443960143265333356234106934447641
              68586378655656964999946965655687368586
              555458774083726674580862268085476627380477854555

              The Procedure

              Ian Peter tested all of his numbers to 200,000 digits (~500,000 iterations). He proved that there is no number from 1 to 9,999,999 that forms a palindrome in over 96 iterations, but in under ~500,000 iterations.

              Using this information, I set my program (the same program currently trying to break the 196 Palindrome Quest record) to retrieve the number of iterations required to form a palindrome for all numbers from 0 to 9,999,999. This was done by setting a limit of 96 iterations. If the number did not resolve into a palindrome after this many iterations, it was marked as 'infinite'. Because of Ian Peter's work, I know that I would have to take these numbers to at least 500,000 iterations before resolving them. Knowing that the likelihood of this happening is very slim, I decided not to take them any further.

              After analyzing the information, I determined that the chances of the next most delayed palindromic number being over 255 iterations, without first finding one that resolves in fewer iterations, was extremely unlikely.

              As a result of this, I determined the best way to break the record of the Most Delayed Palindromic Number was to continue from 9,999,999 on, looking at a maximum of 255 iterations. By limiting the number of iterations to such a small number, an unbelievable amount of time is saved (If I wished to double the iteration limit to 510, the process instantly becomes four times slower).

              Using this method, within the first two days of running the program, my program had solved two new records: 100,239,862, which solves in 97 iterations and 140,669,390, which solves in 98 iterations. However, I did not realize until after speaking with Ian J. Peter that his program had already solved these records, and he simply had not updated his web page to show the results.

              Here are Ian J. Peter's latest results:

              Previous Records - found by Ian J. Peter
              Number Iterations Resulting Palindrome
              100,239,862
              140,669,390
              1,090,001,921
              1,009,049,407
              1,050,027,948
              1,304,199,693
              1,005,499,526
              97
              98
              99
              101
              104
              105
              109
              1345428953367763125675365555635765213677633598245431
              1345428953367763125675365555635765213677633598245431
              6634544448788301675886446885761038878444454366
              1543434266587555114779722279774115557856624343451
              5831124885795990016569666669656100995975884211385
              5831124885795990016569666669656100995975884211385
              66330069478378985774345546664554347758987387496003366

              Thoughts on Improving the Search

              The current procedure is not the fastest way to find the most delayed palindromic number. Most numbers being checked are 'consequences' of numbers already checked. For instance, a few consequences of 140,669,390 are: 150,669,380, 160,669,370, 170,669,360, 180,669,350, 190,669,340. These were found by simply changing the second and the second-to-last digits. Note the pattern - each of these numbers, after their first iteration will all become the same number (the two digits being modified sum to 13 each time), and thus will eventually all yield the same palindrome. It does not make sense to recalculate these same iterations over and over again. Even more consequences can be found by changing the third and the third-to-last digits, and so on. These are all known as 'first order consequences' since they produce the same number after just one iteration.

              Other consequences exist that produce the same number after two iterations (these are called 'second order consequences' since they produce the same number after two iterations), and after three iterations ('third order consequences'), and so on. Although, these are a little harder to find. If you'll look at Ian Peter's work in the table above, you will notice some of his results form the same palindrome as others. They are consequences of each other.

              By messing with the digits, as we did above, we can find 1 * 6 * 4 * 4 = 96 numbers, including the original, that all have the same properties as 140,669,390. Almost every number, not just ones that become palindromes, have lots of first order consequences of itself - and in most cases, more than just 96.

              However, until I write a program to fix these problems, the program will continue to run on its machine, for as long as I have access to it. It is currently calculating 100,000,000 numbers per day - so, hopefully we have seen just the beginning.


              Improving the Search

              FRIDAY, AUGUST 20, 1999 UPDATE:

              BAD NEWS: I have lost access to the computer that was dedicated to these calculations.

              GOOD NEWS: After a little bit of thinking, I have 'discovered' an algorithm in which will minimize repetitive calculations that are caused by first order consequences of the same number. This is an exponential improvement on my previous algorithm. Allowing my computer 2 weeks of work with my old algorithm, at its current rate, would 'solve', to 255 iterations, all numbers from 0 to 1,360,000,000. In others words, all 9-digit numbers and more. Theoretically, my new algorithm, given the same number of calculations (2 weeks of computations on the same machine), could 'solve', to 255 iterations, all numbers from 0 to 99,999,999,999,999. In others words, all 14-digit numbers. (My previous algorithm would take 2,800 years to do this) I will probably have to increase my iteration limit as the numbers grow large, thus taking more time than just 2 weeks, but the above is just to give an indication of the improvement of the algorithm itself. Enough talking - in a few days I am going to implement the algorithm, and hopefully it lives up to what I expect. I will run it on my home computer, which should 'see' about 50% of the processing that it was getting on the dedicated computer I used to have.


              Implementing the Search

              FRIDAY, SEPTEMBER 3, 1999 UPDATE:

              I have reprogrammed my new exponential algorithm to find the smallest number that solves into a palindrome for each distinct iteration count. For example, it will find that 10,905,963 solves in 71 iterations, regardless that there is a smaller number that solves in more iterations (9,008,299 in 96 iterations). 10,905,963 is reported because it is the smallest number that resolves in 71 iterations, out of all numbers that resolve in 71 iterations. Thus the program not only reports numbers that break the record for more iterations, but also reports the smallest number that solves in x iterations, for all x.

              The program adjusts the iteration limit so that it is three times that of the current record. This was programmed after analyzing the data already accumulated, and it was determined that the chances of finding a number that solves in more than three times the number of iterations of the current record, without first finding one that solves in less than three times the number of iterations of the current record, is extremely slim.

              I have started the new program, calculating all most delayed palindromic numbers from scratch on Friday, September 3, 1999 on my AMD-K6 200 MHz computer.

              FRIDAY, SEPTEMBER 3, 1999 UPDATE:
              Within an hour and a half (1 hour, 29 minutes, 45 seconds, to be exact) of started the new program from scratch, it had solved a new world record:
              The 11 digit number 10,287,799,930 resolves into a 65 digit palindrome in 134 iterations.
              Amazingly, only 3 minutes later, a new world record was found:
              The 11 digit number 10,700,572,940 resolves into a 66 digit palindrome in 149 iterations.

              FRIDAY, AUGUST 4, 2000 UPDATE:

              More statistics of the program follows:


              Jason's New Exponential Algorithm
              Performance (AMD-K6 200 MHz)
              It solved all 6 digit numbers and below in 1 second.
              It solved all 7 digit numbers in 28 seconds.
              It solved all 8 digit numbers in 1 minute 38 seconds.
              It solved all 9 digit numbers in 21 minutes 51 seconds.
              It solved all 10 digit numbers in 59 minutes 16 seconds.
              It solved all 11 digit numbers in 20 hours, 29 minutes.
              It solved all 12 digit numbers in 1 day, 20 hours.
              It solved all 13 digit numbers in 31 days, 9 hours.
              It solved all 14 digit numbers in 63 days, 9 hours.
              It solved 8.34% of all 15 digit numbers.


              FRIDAY, AUGUST 4, 2000 UPDATE:
              During this, it solved the following world records, each beating the last record my program set:

              New World Record: The 13 digit number 1,600,402,195,090 resolves after 188 iterations.
              New World Record: The 15 digit number 107,000,020,928,910 resolves after 192 iterations.
              New World Record: The 15 digit number 100,120,849,299,260 resolves after 201 iterations.

              At this point, the program stopped due to lack of a computer to run the program.



              The Results

              MONDAY, JUNE 17, 2002 UPDATE:

              I have not been able to run my program since Friday, August 4, 2000. At the time, I only had 8.34% of all the 15 digit numbers solved. I could not continue because the program was written in DOS under Flat Mode, which refuses to run under Windows 98 or greater. These operating systems no longer allow the computer to be (easily) rebooted into a fully DOS compatible mode, which is not a Windows Shell.

              On Sunday, May 19, 2002, I finally reprogrammed my algorithm in Windows to allow the search to continue. It is too bad that I have waited this long, because I would be far into the 17 digit numbers right now.

              After some initial beta-testing, I started the new program again from scratch on Thursday, March 30, 2002. It has since reached, and surpassed the numbers checked of my old DOS program. Note that it is only running part time on my AMD 1700+ XP processor.

              The records, including the World Record for Most Delayed Palindromic Number (highlighted in red), are listed in the below table. Click on any of the numbers to pop-up a calculation page that proves its result.

              WEDNESDAY, APRIL 16, 2003 UPDATE:

              I am now into the 17 digit numbers. This is going to be an interesting set of numbers to look at, since after the result of the 16 digit numbers, there is only one iteration count below the current (as of April 16, 2003) world record of 201 iterations (the 15 digit number 100,120,849,299,260) that has yet to solve out: 160. Any new information to be reported by the program will either be the 160 iteration result, or a new world record.

              We can guess at what the 160 iteration result would be, by iterating the smallest number to resolve in 161 iterations (the 16 digit number 6,000,000,039,361,479) a single time. Thus we can tell that the 17 digit number 15,741,639,339,361,485 will solve out in 160 iterations. Its lowest first order consequence ('consequences' are explained above on this page) is 14,200,033,399,975,995. Therefore we will expect to see a result for 160 iterations which is, at largest, this 17 digit number.

              TUESDAY, APRIL 29, 2003 UPDATE:

              I have incorporated Benjamin Despres' reverse-and-add code into my algorithm for finding Most Delayed Palindromic Numbers, as his code is approximately three times faster than my reversal-addition code. The core exponential algorithm that determines which numbers to test remains unchanged. I have started the quest from scratch, again, to ensure that his code is operating perfectly with my code. I have already extensively tested his code with extreme cases to ensure its accuracy. The biggest problem that I had porting his code into my program is that his code was not designed to be re-run multiple times. He programmed the initialization portion of it for a one-shot deal. Initialization code is normally left unoptimized as it is only run once, and therefore does not matter for performance. It only affects the start up time of a program, and for a process that takes several months (his code was computing the 196 Palindrome Quest), it does not matter if the initialization code takes 1/1,000th of a second or 1/10,000th of a second. I re-coded the initialization section to re-initialize only the parts of memory that has to be for optimal performance.

              WEDNESDAY, JUNE 2, 2003 UPDATE:

              My old code had solved 0.297% of all 17 digit numbers. My new program (with Benjamin Despres' reversal-addition code) finally surpassed this today. All results match prior results. A few hours later, my program also finally found a new world record since the old record was found solving the 15 digit numbers. My old program was within hours of solving this new record, and was delayed for almost two months due to the restarting of the program with Benjamin Despres' reversal-addition code.

              WEDNESDAY, JUNE 2, 2003 UPDATE:
              Today, at 2:47 PM, my program (with Benjamin Despres' reversal-addition code) solved a new world record:
              The 17 digit number 10,078,083,499,399,210 resolves into a 112 digit palindrome in 233 iterations.

              This new world record beats the old world record that has stood for about 3 years (set by my program sometime between November 1999 to August 2000; the exact date was never recorded) which was the 15 digit number 100,120,849,299,260 which resolves into a 92 digit palindrome in 201 iterations.

              Also, later that day, at 7:28 PM, a record for 160 iterations was found: 10,019,017,999,499,510. It is lower than the number that we expected could be the potential record (14,200,033,399,975,995), and it is on a different thread (series of numbers that are formed by the reversal-addition iteration), as the resultant palindrome is different from that of the record for 161 iterations. (Please note that on January 28, 2004, an even smaller number for 160 iterations was found, on yet another thread: 10,000,000,730,931,027.)

              THURSDAY, JULY 10, 2003 UPDATE:
              Today, at 12:49 PM, my program (with Benjamin Despres' reversal-addition code) solved a new world record:
              The 17 digit number 10,442,000,392,399,960 resolves into a 111 digit palindrome in 236 iterations.

              WEDNESDAY, DECEMBER 15, 2004 UPDATE:

              At 10:44 AM, after exactly 500 days of processing from scratch, my program (with Benjamin Despres' reversal-addition code) finally resolved all 17 digit numbers. The majority of that time (444 days of those 500) was required for just the processing of the 17 digit numbers. Due to the optimizations in my algorithm, it does not iteratively check each number. My algorithm determines which numbers can be eliminated from the search and still maintain 100% accurate results. As a result, my program actually only checked 186,819,193,449 total numbers, instead of 99,999,999,999,999,999 numbers, to compute the results of all 17-digit numbers and smaller, which is a significant optimization. It would have taken over 700,000 years, on the same computer, to compute all these numbers without this optimization.

              MONDAY, MARCH 21, 2005 UPDATE:

              Vaughn Suite has corresponded with me regarding my quest over the past few weeks. He suggested performing a statistical analysis of the data, to determine the likelihood of missing a record at any given iteration limit. Using such analysis, we can set the limit to match our preferred risk. If this shows the current limitation is overkill, then we will speed up the program by reducing the limit.

              Originally, I took a naive approach and simply set the limit to be 3 times that of the last record found. This was done only because, at a quick glance, it appeared to suffice. It appeared quite a bit less safe than Ian Peter's limitation of 200,000 digits (about 500,000 iterations, which varies slightly depending on the number checked). I should again note that Ian Peter's work has exhaustively shown that numbers that do not resolve quickly seemingly never resolve. This has been crucial in allowing us to use the below statistical analysis on my data.

              Vaughn Suite's analysis started with the most delayed palindromic number for each digit length, as follows (updated Sunday, September 25, 2005 upon completion of the 18-digit set):

              Largest Delay per Digit Set
              Digit Set Largest Delay
              1-digit numbers
              2-digit numbers
              3-digit numbers
              4-digit numbers
              5-digit numbers
              6-digit numbers
              7-digit numbers
              8-digit numbers
              9-digit numbers
              10-digit numbers
              11-digit numbers
              12-digit numbers
              13-digit numbers
              14-digit numbers
              15-digit numbers
              16-digit numbers
              17-digit numbers
              18-digit numbers
              2
              24
              23
              21
              55
              64
              96
              96
              98
              109
              149
              149
              188
              186
              201
              197
              236
              232

              You will note that this data is not immediately known from the records I show on this page. My Most Delayed Palindromic Number quest stores only the smallest number that resolves at each iteration depth. Therefore if a record is set in a smaller digit set, any other numbers that resolve in the same amount of iterations from larger digit sets will not be recorded, since they are larger numbers. These numbers are not recorded even if they are the most delayed palindromic number of that digit set, simply because this was not the purpose of the program.

              For example, in the 7 digit set, the most delayed palindromic number is 9,008,299 which resolves in 96 iterations. There are two (consequences not counted) 8 digit numbers that solve in 96 iterations: 15,002,893 and 15,059,593, but they are not recorded. The most delayed palindromic number recorded for the 8 digit set is 10,309,988 which solves in only 95 iterations. The two that resolve in 96 iterations are not smaller than the 7 digit number, 9,008,299, that resolves in 96 iterations, and my program saves only the smallest one.

              Vaughn Suite verified these maximum iteration depths for each digit set himself for all digit sets up to 13 digits, and got the maximum depths for the 15 digit and 17 digit sets from this page, and the for the 14 digit and 16 digit sets from my notes on Wade VanLandingham's site (under Other People's Notes). He noted that the values appeared to follow a linear trend, estimated the maximum iteration depth for the 18 digit set would likely be 250 and suggested testing to 350 iterations, instead of multiplying the last previous record by three. After some discussion, we performed linear regression analysis, which yielded the following equation:

              Expected Maximum Iteration Depth = 14.416667 * Digit Length - 18.338235

              The standard deviation was found to be 11.245233. We concluded that we could use normal distribution to describe the data. There is a 98.83% correlation between these iteration limits and the digit length of the set they represent. (If you are a statistician, and believe this is incorrect, please contact me.) Armed with this information, we did further spreadsheet analysis to determine the probability of a number being missed for the 18 digit set, giving any iteration limit. We could also input the probability (risk) level we were prepared to accept, and the sheet would inform us of the iteration level required for such a risk.

              In retrospect, I was doing far more calculations than I needed to. Using a limitation of 708 iterations for the 18 digit set represents a missed record would have to be 41.51 standard deviations away from the mean. This is an astronomically small chance. I cannot even calculate the chances within Excel due to the precision limitations of the program. (If someone has Maple, Mathematica or another Computer Algebra System, please contact me, and perhaps we can compute the actual amount.) To give you an idea just how crazy this is, 68% of all numbers fall within 1 SD (standard deviation) of the mean, 95% fall within 2 SD, 99.7% fall within 3 SD, 99.993% fall within 4 SD, 99.99994% fall within 5 SD, 99.9999998% fall within 6 SD, 99.9999999997% fall within 7 SD, etc. In another perspective, if we wish to have a 1 in 1,000 chance of missing a record, we'd set the iteration limit 3.09 SD away from the mean. To have a 1 in 1,000,000 (one million) chance of failure, we'd set the iteration limit 4.75 SD away from the mean. For 1 in 1,000,000,000 (one billion), set it 6.00 SD away. For 1 in 1,000,000,000,000 (one thousand billion), set it 7.04 away. For 1 in 1,000,000,000,000,000 (one million billion), set it 7.94 away. Imagine what the chances of failure would be going all the way to 41.51!

              Thus, the quest can now be sped up by using this information. After much discussion, I personally determined that a 1 in 10,000,000 chance of missing a record was reasonable. This is based on my personal conjecture that when a new world record is found, there are numerous other records found for iterations just below the world record. In other words, a world record has yet been found in which there exists no other records for iteration depths almost as deep as the record. Therefore, in the unlikely (1 in 10,000,000 chance) event that we will miss a record, we will likely know that we missed it, due the likelihood of numerous other numbers resolving in iteration depths very close to the limit. In this case, we can increase the iteration depth, and re-test the entire data set. Yes, it would be depressing to have to redo this work, but I believe in the 1 in 10,000,000 chance that this happens, it is worth the speed up in the program.

              For a 1 in 10,000,000 chance of missing a record, our formulas determined an iteration depth of 299.63 is required, therefore I set the depth to 300 for the 18 digit set. The actual chance of missing a record for a depth of 300 iterations is 1 in 11,921,892, for those who are curious.

              I would like to extend a great thanks to Vaughn Suite for his help. Using this information, the Most Delayed Palindromic Number quest has been sped up by over 5.5 times.

              SUNDAY, SEPTEMBER 25, 2005 UPDATE:

              On Sunday, September 25, 2005, at 3:16 am, my program (with Benjamin Despres' reversal-addition code) completed the 18-digit number set. The most delayed palindromic 18 digit number solves in 232 iterations, as you can see by the above table labelled 'Largest Delay per Digit Set'. Using this information to update the statistical analysis, we arrive at the following new formula:

              Expected Maximum Iteration Depth = 14.255934 * Digit Length - 17.320261

              The standard deviation was found to be 11.087996. There is a 98.96% correlation between these iteration limits and the digit length of the set they represent.

              Using this information, for a 1 in 10,000,000 chance of missing a record, the iteration limit should be set to 311.20. I have rounded this value up to 315 for the 19-digit set. A limit of 315 iterations actually represents a 1 in 66,981,399 chance of missing a record.

              Certain numbers do not resolve into a palindrome within the limit tested, and we believe such numbers will never solve, no matter how many iterations they are taken to. Such numbers are called Lychrel numbers. The percentage of Lychrels that occur increases with each new digit length tested:

              Percentage of Lychrels
              Digit Length % Not Resolved
              1-digit numbers
              2-digit numbers
              3-digit numbers
              4-digit numbers
              5-digit numbers
              6-digit numbers
              7-digit numbers
              8-digit numbers
              9-digit numbers
              10-digit numbers
              11-digit numbers
              12-digit numbers
              13-digit numbers
              14-digit numbers
              15-digit numbers
              16-digit numbers
              17-digit numbers
              18-digit numbers
              0.00%
              0.00%
              1.67%
              3.51%
              7.25%
              14.45%
              22.17%
              31.30%
              40.42%
              49.61%
              57.82%
              65.44%
              71.64%
              77.17%
              81.41%
              85.22%
              88.03%
              90.55%

              Percentage Lychrels for each Digit Set

              (Please note the above data is obtained from the sub-set of numbers my program tests. My program does not test every number, due to the optimizations explained earlier. So, while this graph is not 100% accurate, it is certainly very close. Most likely, it is accurate to well within the precision shown.)

              MY LATEST RESULT (BEFORE RETIREMENT)
              WORLD RECORD for 13.4 years (November 30, 2005 - April 26, 2019)
              WEDNESDAY, NOVEMBER 30, 2005 UPDATE:
              Today, at 5:20 AM, my program (with Benjamin Despres' reversal-addition code) solved a new (current) world record.
              The 19 digit number 1,186,060,307,891,929,990 resolves into a 119 digit palindrome in 261 iterations.
              Proof: View the reversal-addition sequence for 1,186,060,307,891,929,990

              This new world record beats the old world record set by my program (with Benjamin Despres' reversal-addition code) 2 years, 143 days ago, which was the 17 digit number 10,442,000,392,399,960 which resolves into a 111 digit palindrome in 236 iterations.

              (I wasn't the first to beat my July 10, 2003 record of 236 iterations. A program written by Vaughn Suite found the 19-digit number 1,000,000,079,994,144,385, which resolves into a 119 digit palindrome in 259 iterations, on July 26, 2005 at 8:27 AM.)

              Most Delayed Palindromic Number Records

              'Zero Iterations' Note: These numbers are calculated according to the number of iterations of reversal-addition required to reach a palindrome. One iteration, at minimal, is performed. Thus, if the number is already a palindrome, it is not considered to be palindromic after 0 iterations. As a result, we have examples such as 1, 5 and 999.

              'Solved' Note: In the graph below, 'solved' means that the numbers were iterated to a calculated maximum iteration needed to show within a reasonable doubt that the number will never solve.

              For all 17 digit numbers and smaller, I determined it was reasonable to iterate the numbers to three times the amount of the current world record. For example, if the record is 200 iterations, my program will test other numbers to 600 iterations. This has been shown to be significant overkill in light of the statistical analysis. For the 18 digit set, Vaughn Suite and I used statistical analysis to determine a reasonable limit of 300 iterations. This limitation has a chance of less than 1 in 12,000,000 that we will miss a record. For the 19 digit set, using the same statistical analysis we determined a reasonable limit of 315 iterations. This limitation has a chance of less than 1 in 67,000,000 that we will miss a record.

              It should be noted that Ian Peter's results have been essential for the assumptions made in these calculations. His extensive search performed on all 9 digit numbers and below (taking them all to 200,000 digits [slightly less than 500,000 iterations]) has shown, beyond any reasonable doubt, that if a number does not resolve into a palindrome quickly, it will never resolve into a palindrome.

              Although it is believed that these numbers never solve out, like 196, it may be impossible to confirm. Until it can be proven that they will never solve, the following results are only conjectures.


              Solved all 1 digit numbers
              NumberIterationsDigitsResultant Palindrome
              1
              5
              1
              2
              1
              2
              2
              11
              Solved all 2 digit numbers
              NumberIterationsDigitsResultant Palindrome
              59
              69
              79
              89
              3
              4
              6
              24
              4
              4
              5
              13
              1111
              4884
              44044
              8813200023188
              Solved all 3 digit numbers
              NumberIterationsDigitsResultant Palindrome
              166
              188
              193
              829
              167
              849
              177
              999
              739
              989
              869
              187
              5
              7
              8
              10
              11
              14
              15
              16
              17
              19
              22
              23
              5
              6
              6
              8
              8
              10
              10
              10
              10
              11
              13
              13
              45254
              233332
              233332
              88555588
              88555588
              8836886388
              8836886388
              8939779398
              5233333325
              89540004598
              8813200023188
              8813200023188
              Solved all 4 digit numbers
              NumberIterationsDigitsResultant Palindrome
              1,397
              2,069
              1,797
              1,798
              6,999
              1,297
              9
              12
              13
              18
              20
              21
              8
              8
              10
              11
              14
              13
              88555588
              52788725
              8836886388
              89540004598
              16668488486661
              8813200023188
              Solved all 5 digit numbers
              NumberIterationsDigitsResultant Palindrome
              10,797
              10,853
              10,921
              10,971
              13,297
              10,548
              13,293
              17,793
              20,889
              80,359
              13,697
              10,794
              15,891
              70,759
              70,269
              10,677
              10,833
              10,911
              25
              26
              27
              28
              29
              30
              31
              32
              33
              37
              38
              39
              40
              47
              52
              53
              54
              55
              16
              16
              16
              16
              18
              17
              17
              17
              17
              22
              22
              22
              22
              26
              28
              28
              28
              28
              1676404554046761
              4455597447955544
              4455597447955544
              8802202552022088
              893974888888479398
              17858768886785871
              17858768886785871
              44035358885353044
              44035358885353044
              6839849878998789489386
              6839849878998789489386
              6832123695335963212386
              6832123695335963212386
              14525756544499444565752541
              4668731596684224866951378664
              4668731596684224866951378664
              4668731596684224866951378664
              4668731596684224866951378664
              Solved all 6 digit numbers
              NumberIterationsDigitsResultant Palindrome
              700,269
              106,977
              108,933
              600,259
              131,996
              600,279
              141,996
              600,579
              147,996
              178,992
              190,890
              600,589
              150,296
              34
              35
              36
              45
              46
              50
              51
              57
              58
              59
              60
              63
              64
              22
              22
              22
              26
              26
              28
              28
              31
              31
              31
              31
              33
              33
              6832123695335963212386
              6832123695335963212386
              6832123695335963212386
              14525756544499444565752541
              14525756544499444565752541
              4668731596684224866951378664
              4668731596684224866951378664
              8834453324841674761484233544388
              8834453324841674761484233544388
              8834453324841674761484233544388
              8834453324841674761484233544388
              682049569465550121055564965940286
              682049569465550121055564965940286
              Solved all 7 digit numbers
              NumberIterationsDigitsResultant Palindrome
              1,009,227
              1,007,619
              1,009,246
              1,008,628
              1,007,377
              1,001,699
              1,009,150
              1,058,921
              1,050,995
              1,003,569
              1,036,974
              1,490,991
              3,009,179
              1,008,595
              1,064,912
              1,998,999
              7,008,429
              1,000,689
              1,005,744
              1,007,601
              7,008,899
              9,008,299
              41
              42
              43
              44
              48
              49
              56
              61
              62
              65
              66
              67
              68
              69
              70
              75
              77
              78
              79
              80
              82
              96
              23
              22
              23
              23
              28
              27
              28
              32
              33
              32
              32
              32
              35
              35
              35
              32
              38
              39
              39
              38
              38
              48
              68344497279697279444386
              1556534287227824356551
              45144454432023445444154
              48852787646664678725884
              8836746997299229927996476388
              168977944479424974449779861
              6842165664428668244665612486
              18966336852467966976425863366981
              682049569465550121055564965940286
              14758724578598888889587542785741
              14758724578598888889587542785741
              14758724578598888889587542785741
              46563056797844547874544879765036564
              46563056797844547874544879765036564
              46563056797844547874544879765036564
              15521561387579888897578316512551
              14674443960143265333356234106934447641
              796589884324966945646549669423488985697
              796589884324966945646549669423488985697
              14674443960143265333356234106934447641
              68586378655656964999946965655687368586
              555458774083726674580862268085476627380477854555
              Solved all 8 digit numbers
              NumberIterationsDigitsResultant Palindrome
              10,905,963
              10,069,785
              10,089,342
              11,979,990
              10,029,372
              10,029,826
              16,207,990
              90,000,589
              10,309,988
              71
              72
              73
              74
              76
              81
              83
              94
              95
              38
              32
              32
              32
              39
              38
              38
              48
              48
              35695487976778433588533487767978459653
              15521561387579888897578316512551
              15521561387579888897578316512551
              15521561387579888897578316512551
              796589884324966945646549669423488985697
              68586378655656964999946965655687368586
              68586378655656964999946965655687368586
              555458774083726674580862268085476627380477854555
              555458774083726674580862268085476627380477854555
              Solved all 9 digit numbers
              NumberIterationsDigitsResultant Palindrome
              100,389,898
              100,055,896
              110,909,992
              160,009,490
              800,067,199
              151,033,997
              100,093,573
              103,249,931
              107,025,910
              180,005,498
              100,239,862
              140,669,390
              84
              85
              86
              87
              88
              89
              90
              91
              92
              93
              97
              98
              45
              41
              40
              40
              46
              46
              46
              46
              46
              48
              52
              52
              584227988787668589199242991985866787889722485
              88682199585544879735653797844558599128688
              3525698275220268897227988620225728965253
              3525698275220268897227988620225728965253
              5852497685678899643696996963469988765867942585
              5852497685678899643696996963469988765867942585
              5852497685678899643696996963469988765867942585
              5852497685678899643696996963469988765867942585
              5852497685678899643696996963469988765867942585
              555458774083726674580862268085476627380477854555
              1345428953367763125675365555635765213677633598245431
              1345428953367763125675365555635765213677633598245431
              Solved all 10 digit numbers
              NumberIterationsDigitsResultant Palindrome
              1,090,001,921
              7,007,009,909
              1,009,049,407
              9,000,046,899
              1,050,027,948
              1,304,199,693
              5,020,089,949
              1,005,499,526
              99
              100
              101
              103
              104
              105
              108
              109
              46
              49
              49
              49
              49
              49
              53
              53
              6634544448788301675886446885761038878444454366
              1543434266587555114779722279774115557856624343451
              1543434266587555114779722279774115557856624343451
              5831124885795990016569666669656100995975884211385
              5831124885795990016569666669656100995975884211385
              5831124885795990016569666669656100995975884211385
              66330069478378985774345546664554347758987387496003366
              66330069478378985774345546664554347758987387496003366
              Solved all 11 digit numbers
              NumberIterationsDigitsResultant Palindrome
              10,000,505,448
              10,000,922,347
              10,000,696,511
              10,701,592,943
              10,018,999,583
              10,000,442,119
              10,000,761,554
              10,084,899,970
              10,006,198,250
              18,060,009,890
              11,400,245,996
              16,002,897,892
              18,317,699,990
              37,000,488,999
              10,050,289,485
              90,000,626,389
              10,000,853,648
              13,003,696,093
              10,050,859,271
              10,287,799,930
              10,000,973,037
              10,600,713,933
              10,942,399,911
              60,000,180,709
              11,009,599,796
              16,000,097,392
              10,031,199,494
              10,306,095,991
              10,087,799,570
              102
              106
              107
              110
              111
              112
              113
              114
              115
              116
              117
              118
              119
              122
              123
              130
              131
              132
              133
              134
              135
              136
              137
              144
              145
              146
              147
              148
              149
              49
              50
              56
              53
              56
              56
              56
              56
              56
              56
              56
              56
              56
              58
              58
              65
              65
              65
              65
              65
              71
              71
              71
              66
              66
              66
              66
              66
              66
              5831124885795990016569666669656100995975884211385
              15739929700341113302426977962420331114300792993751
              13323895762789854121576789855898767512145898726759832331
              23103742208899345951210026862001215954399880224730132
              13656852665688105699133698688689633199650188656625865631
              13656852665688105699133698688689633199650188656625865631
              13656852665688105699133698688689633199650188656625865631
              13656852665688105699133698688689633199650188656625865631
              13656852665688105699133698688689633199650188656625865631
              15997773553851169652456786055068765425696115835537779951
              11144565886884377368565136533563156586377348868856544111
              11144565886884377368565136533563156586377348868856544111
              11144565886884377368565136533563156586377348868856544111
              4618999883854436730489915000000005199840376344583889998164
              4618999883854436730489915000000005199840376344583889998164
              12346788678755866852059426528989698982562495025866855787688764321
              12346788678755866852059426528989698982562495025866855787688764321
              12346788678755866852059426528989698982562495025866855787688764321
              12346788678755866852059426528989698982562495025866855787688764321
              12346788678755866852059426528989698982562495025866855787688764321
              12366212267356333541465465587987721212778978556456414533365376221266321
              12366212267356333541465465587987721212778978556456414533365376221266321
              12366212267356333541465465587987721212778978556456414533365376221266321
              895549975467412444422685224544649946445422586224444214764579945598
              895549975467412444422685224544649946445422586224444214764579945598
              895549975467412444422685224544649946445422586224444214764579945598
              895549975467412444422685224544649946445422586224444214764579945598
              895549975467412444422685224544649946445422586224444214764579945598
              895549975467412444422685224544649946445422586224444214764579945598
              Solved all 12 digit numbers
              NumberIterationsDigitsResultant Palindrome
              100,900,509,906
              100,000,055,859
              104,000,146,950
              180,005,998,298
              300,000,185,539
              100,001,987,765
              120
              121
              124
              129
              142
              143
              58
              58
              58
              65
              66
              66
              4618999883854436730489915000000005199840376344583889998164
              4618999883854436730489915000000005199840376344583889998164
              4618999883854436730489915000000005199840376344583889998164
              12346788678755866852059426528989698982562495025866855787688764321
              895549975467412444422685224544649946445422586224444214764579945598
              895549975467412444422685224544649946445422586224444214764579945598
              Solved all 13 digit numbers
              NumberIterationsDigitsResultant Palindrome
              1,000,007,614,641
              1,000,043,902,320
              1,000,006,653,746
              1,000,005,469,548
              4,000,096,953,659
              1,332,003,929,995
              1,000,201,995,662
              6,000,008,476,379
              1,200,004,031,698
              1,631,002,019,993
              1,000,006,412,206
              1,090,604,591,930
              1,600,005,969,190
              125
              126
              127
              128
              139
              140
              141
              183
              184
              185
              186
              187
              188
              65
              65
              65
              68
              66
              66
              66
              87
              87
              87
              87
              87
              87
              68236478976724413455368469647845654874696486355431442767987463286
              68236478976724413455368469647845654874696486355431442767987463286
              12346788678755866852059426528989698982562495025866855787688764321
              46476268994355205755566889613764755746731698866555750255349986267464
              895549975467412444422685224544649946445422586224444214764579945598
              895549975467412444422685224544649946445422586224444214764579945598
              895549975467412444422685224544649946445422586224444214764579945598
              159788389444247969944047982661126897487188000881784798621166289740449969742444983887951
              159788389444247969944047982661126897487188000881784798621166289740449969742444983887951
              159788389444247969944047982661126897487188000881784798621166289740449969742444983887951
              159788389444247969944047982661126897487188000881784798621166289740449969742444983887951
              159788389444247969944047982661126897487188000881784798621166289740449969742444983887951
              159788389444247969944047982661126897487188000881784798621166289740449969742444983887951
              Solved all 14 digit numbers
              NumberIterationsDigitsResultant Palindrome
              10,090,899,969,901
              40,000,004,480,279
              14,104,229,999,995
              138
              181
              182
              70
              87
              87
              2319937995996732122112578857767863993687677588752112212376995997399132
              159788389444247969944047982661126897487188000881784798621166289740449969742444983887951
              159788389444247969944047982661126897487188000881784798621166289740449969742444983887951
              Solved all 15 digit numbers
              NumberIterationsDigitsResultant Palindrome
              100,000,109,584,608
              100,000,098,743,648
              100,004,789,906,151
              100,079,239,995,161
              100,389,619,999,030
              200,000,729,975,309
              107,045,067,996,994
              105,420,999,199,982
              101,000,269,830,970
              104,000,047,066,970
              700,000,001,839,569
              100,000,050,469,737
              101,000,789,812,993
              100,907,098,999,571
              100,017,449,991,820
              890,000,023,937,399
              100,009,989,989,199
              101,507,024,989,944
              107,405,139,999,943
              100,057,569,996,821
              103,500,369,729,970
              900,000,076,152,049
              100,000,439,071,028
              120,000,046,510,993
              103,000,015,331,997
              100,617,081,999,573
              100,009,029,910,821
              107,000,020,928,910
              100,000,090,745,299
              102,000,149,322,944
              130,000,074,931,591
              100,120,849,299,260
              150
              151
              152
              153
              154
              155
              156
              157
              158
              159
              163
              164
              165
              166
              167
              169
              170
              171
              172
              173
              174
              178
              179
              180
              189
              190
              191
              192
              198
              199
              200
              201
              80
              73
              80
              73
              73
              77
              77
              83
              77
              83
              78
              78
              77
              77
              77
              80
              76
              76
              82
              82
              80
              87
              87
              87
              87
              87
              87
              87
              92
              92
              92
              92
              14751782101782013776625853112452243335411453334225421135852667731028710128715741
              3874338821379754365139707922389885874785889832297079315634579731288334783
              14751782101782013776625853112452243335411453334225421135852667731028710128715741
              3874338821379754365139707922389885874785889832297079315634579731288334783
              3874338821379754365139707922389885874785889832297079315634579731288334783
              58432004534377668812885984239766675854845857666793248958821886677343540023485
              58432004534377668812885984239766675854845857666793248958821886677343540023485
              66364653972239888685894387234687476484136863148467478643278349858688893227935646366
              58432004534377668812885984239766675854845857666793248958821886677343540023485
              66364653972239888685894387234687476484136863148467478643278349858688893227935646366
              177454986735997675255356985559732595246642595237955589653552576799537689454771
              177454986735997675255356985559732595246642595237955589653552576799537689454771
              15951239866387982563456955855439974585458547993455855965436528978366893215951
              15951239866387982563456955855439974585458547993455855965436528978366893215951
              15951239866387982563456955855439974585458547993455855965436528978366893215951
              36764456433123268897359635569438786398655689368783496553695379886232133465446763
              1685279897987756678784477446325846776116776485236447744878766577897989725861
              1685279897987756678784477446325846776116776485236447744878766577897989725861
              4973663467878710242597852762388983882088668802883898832672587952420178787643663794
              4973663467878710242597852762388983882088668802883898832672587952420178787643663794
              36764456433123268897359635569438786398655689368783496553695379886232133465446763
              159788389444247969944047982661126897487188000881784798621166289740449969742444983887951
              159788389444247969944047982661126897487188000881784798621166289740449969742444983887951
              159788389444247969944047982661126897487188000881784798621166289740449969742444983887951
              129816518702696188228910113874486338915527747725519833684478311019822881696207815618921
              129816518702696188228910113874486338915527747725519833684478311019822881696207815618921
              129816518702696188228910113874486338915527747725519833684478311019822881696207815618921
              129816518702696188228910113874486338915527747725519833684478311019822881696207815618921
              16616723795884852455598564101455698426624444977944442662489655410146589555425848859732761661
              16616723795884852455598564101455698426624444977944442662489655410146589555425848859732761661
              16616723795884852455598564101455698426624444977944442662489655410146589555425848859732761661
              16616723795884852455598564101455698426624444977944442662489655410146589555425848859732761661
              Solved all 16 digit numbers
              NumberIterationsDigitsResultant Palindrome
              6,000,000,039,361,479
              1,421,000,069,679,996
              1,000,650,998,992,311
              1,000,002,899,436,401
              1,000,100,396,492,200
              1,400,000,027,672,498
              7,090,000,039,309,919
              1,000,050,048,994,957
              1,003,000,024,749,923
              1,000,803,019,495,711
              1,030,020,097,997,900
              161
              162
              168
              175
              176
              177
              193
              194
              195
              196
              197
              78
              78
              76
              78
              78
              87
              92
              92
              92
              92
              92
              177454986735997675255356985559732595246642595237955589653552576799537689454771
              177454986735997675255356985559732595246642595237955589653552576799537689454771
              1685279897987756678784477446325846776116776485236447744878766577897989725861
              169635646445469964587742217600000453348843354000006712247785469964544646536961
              169635646445469964587742217600000453348843354000006712247785469964544646536961
              159788389444247969944047982661126897487188000881784798621166289740449969742444983887951
              16616723795884852455598564101455698426624444977944442662489655410146589555425848859732761661
              16616723795884852455598564101455698426624444977944442662489655410146589555425848859732761661
              16616723795884852455598564101455698426624444977944442662489655410146589555425848859732761661
              16616723795884852455598564101455698426624444977944442662489655410146589555425848859732761661
              16616723795884852455598564101455698426624444977944442662489655410146589555425848859732761661
              Solved all 17 digit numbers
              NumberIterationsDigitsResultant Palindrome
              10,000,000,730,931,027
              20,005,000,862,599,819
              11,450,360,479,969,994
              10,009,000,275,899,569
              10,059,430,139,999,234
              12,179,702,595,999,991
              79,000,000,445,783,599
              10,000,000,767,846,797
              10,000,000,673,402,336
              10,000,000,525,586,206
              10,005,000,760,994,249
              10,030,503,899,969,524
              12,000,009,694,736,291
              10,442,000,392,399,960
              160
              206
              207
              208
              209
              210
              229
              230
              231
              232
              233
              234
              235
              236
              82
              90
              90
              90
              90
              90
              112
              112
              111
              111
              111
              111
              111
              111
              1454578665279976634446532368777548944388998834498457778632356444366799725668754541
              795884875720569937749728766349898266325776598895677523662898943667827947739965027578488597
              795884875720569937749728766349898266325776598895677523662898943667827947739965027578488597
              795884875720569937749728766349898266325776598895677523662898943667827947739965027578488597
              795884875720569937749728766349898266325776598895677523662898943667827947739965027578488597
              795884875720569937749728766349898266325776598895677523662898943667827947739965027578488597
              4577267267265113973218923972796414755643668659429704525555254079249568663465574146972793298123793115627627627754
              4577267267265113973218923972796414755643668659429704525555254079249568663465574146972793298123793115627627627754
              579922447678688885254995975774499665520124525649777656969656777946525421025566994477579599452588886876744229975
              579922447678688885254995975774499665520124525649777656969656777946525421025566994477579599452588886876744229975
              579922447678688885254995975774499665520124525649777656969656777946525421025566994477579599452588886876744229975
              579922447678688885254995975774499665520124525649777656969656777946525421025566994477579599452588886876744229975
              579922447678688885254995975774499665520124525649777656969656777946525421025566994477579599452588886876744229975
              579922447678688885254995975774499665520124525649777656969656777946525421025566994477579599452588886876744229975
              Solved all 18 digit numbers
              NumberIterationsDigitsResultant Palindrome
              195,030,047,999,791,993
              100,000,078,999,111,766
              100,710,000,333,399,973
              100,000,002,973,751,552
              100,000,277,999,334,202
              110,300,361,999,869,090
              300,000,000,128,545,799
              104,300,000,514,769,945
              100,700,000,509,609,622
              120,906,490,499,909,290
              900,040,000,881,499,569
              100,072,100,489,999,238
              121,506,542,999,979,993
              106,096,507,979,997,951
              100,980,800,839,699,830
              600,000,000,606,339,049
              170,500,000,303,619,996
              202
              203
              204
              205
              211
              212
              213
              214
              215
              216
              218
              219
              220
              221
              222
              227
              228
              105
              105
              90
              90
              107
              107
              101
              101
              101
              101
              103
              103
              103
              103
              103
              112
              112
              889956674896587435857678447634488652657823489664135444531466984328756256884436744876758534785698476659988
              889956674896587435857678447634488652657823489664135444531466984328756256884436744876758534785698476659988
              795884875720569937749728766349898266325776598895677523662898943667827947739965027578488597
              795884875720569937749728766349898266325776598895677523662898943667827947739965027578488597
              16625459966833465379947700047533357850265135989944697679644998953156205875333574000774997356433866995452661
              16625459966833465379947700047533357850265135989944697679644998953156205875333574000774997356433866995452661
              14884695685311269599498656858759854685128966643652225634666982158645895785865689499596211358659648841
              14884695685311269599498656858759854685128966643652225634666982158645895785865689499596211358659648841
              14884695685311269599498656858759854685128966643652225634666982158645895785865689499596211358659648841
              14884695685311269599498656858759854685128966643652225634666982158645895785865689499596211358659648841
              1596569934458730179488896975455653647842016863898846488983686102487463565545796988849710378544399656951
              1596569934458730179488896975455653647842016863898846488983686102487463565545796988849710378544399656951
              1596569934458730179488896975455653647842016863898846488983686102487463565545796988849710378544399656951
              1596569934458730179488896975455653647842016863898846488983686102487463565545796988849710378544399656951
              1596569934458730179488896975455653647842016863898846488983686102487463565545796988849710378544399656951
              4577267267265113973218923972796414755643668659429704525555254079249568663465574146972793298123793115627627627754
              4577267267265113973218923972796414755643668659429704525555254079249568663465574146972793298123793115627627627754
              As of Saturday, January 23, 2010, solved 55.011% of all 19 digit numbers
              NumberIterationsDigitsResultant Palindrome
              1,000,000,038,990,407,538
              1,000,000,005,577,676,468
              1,060,000,000,523,124,995
              1,000,000,079,994,144,385
              1,003,062,289,999,939,142
              1,186,060,307,891,929,990
              217
              225
              226
              259
              260
              261
              107
              111
              112
              119
              119
              119
              49627604840136499793982885796699976479895651785665644844656658715659897467999669758828939799463104840672694
              579922447678688885254995975774499665520124525649777656969656777946525421025566994477579599452588886876744229975
              4577267267265113973218923972796414755643668659429704525555254079249568663465574146972793298123793115627627627754
              44562665878976437622437848976653870388884783662598425855963436955852489526638748888307835667984873422673467987856626544
              44562665878976437622437848976653870388884783662598425855963436955852489526638748888307835667984873422673467987856626544
              44562665878976437622437848976653870388884783662598425855963436955852489526638748888307835667984873422673467987856626544
              Iterations up to 261 for which no number was found
              223, 224, 237, 238, 239, 240, 241, 242, 243, 244, 245, 246, 247, 248, 249, 250, 251, 252, 253, 254,
              255, 256, 257, 258.

              The intriguing part about these records is that it takes an unreal amount of calculations to discover them, but it takes only a minute amount of calculations to prove that they terminate with a palindrome in the claimed number of iterations. With a program, it would take less than one second to prove that the above numbers do indeed solve out. I do not need a Guinness World Records Official to be present during these calculations. You can take these numbers yourself, write up a quick program, and prove the results yourself. In fact, I have done so. Click on any of the numbers above, and you will be shown a calculation page - computed in real-time (you can test this by entering your own unique number at the end of the URL) - proving that this number resolves into a palindrome in the displayed number of steps, showing you the calculations required to get there.

              Please contact me if you would like more information, or if you know that I have stated incorrect information on this page. To the best of my knowledge, it is correct at this time.


              FRIDAY, OCTOBER 13, 2006 UPDATE:

              Vaughn Suite has completed the processing all 19 digit numbers using a distributed network of 7 machines. He has found the following records:

              The 19 digit number 1,000,000,038,990,407,538 solves after 217 iterations, found on November 27, 2005.
              The 19 digit number 9,000,000,000,255,353,839 solves after 224 iterations, found on February 26, 2006.
              The 19 digit number 1,000,000,005,577,676,468 solves after 225 iterations, found on November 24, 2005.
              The 19 digit number 1,060,000,000,523,124,995 solves after 226 iterations, found on March 9, 2006.
              The 19 digit number 3,000,000,022,999,288,679 solves after 258 iterations, found on April 20, 2006.
              The 19 digit number 1,000,000,079,994,144,385 solves after 259 iterations, found on November 28, 2005.
              The 19 digit number 1,003,062,289,999,939,142 solves after 260 iterations, found on March 19, 2006.
              The 19 digit number 1,186,060,307,891,929,990 solves after 261 iterations, found on January 2, 2006, which is the same world record that my program already solved on November 30, 2005.

              No longer delays were found.

              Note: You may notice that I have previously stated, in my November 30, 2005 update, that Vaughn had already found the 259 iteration record, 1,000,000,079,994,144,385, on July 26, 2005. When Vaughn was processing the 18 digit set on his work desktop last year, he started processing the 19 digit set on his laptop. This processing discovered this 259 iteration record. When he distributed the work into 15 subsets, he had to restart the 19 digit set from scratch, to be able to join it together properly. This processing rediscovered this result on November 28, 2005.

              RETIREMENT:
              Incidentally, at this time, I have only processed 9.782% of the 19 digit set. Why so little? My program has been running only part time, about one third of the time, on one machine. This lack of computer time is due to my retirement of this quest almost a year ago. I will eventually analyze my logs to find out when I stopped processing 24/7, and see how much CPU time I used since then until now. I should note my source code is available for any serious request to make use of it.

              I retired for several reasons. One is that Vaughn is using his own implementation of the same exponentially faster algorithm that I pioneered, which means his code is as fast as mine, all else being equal.

              Also, Vaughn improved the speed of the reverse and add procedure using his own assembly code (optimized for the Pentium III, Pentium 4 and Athlon XP processors). And, he did so specifically for such short iteration spans, unlike the 196 Palindrome Quest, which cannot benefit from cache as greatly, since it processes numbers much larger than available CPU cache. My reverse and add code is from Benjamin Despres, which was optimized for the 196 Palindrome Quest. As you can see from , Vaughn's code is the fastest for smaller numbers. However, even for the 196 Palindrome Quest, Vaughn's assembly code is twice as fast as Ben's.

              To Ben's credit, Ben created his code a long time ago, in mid 2002, before he was able to make use of some of the newer CPU instructions. In 2002, Ben's had the fastest known application, responsible for taking the 196 Palindrome Quest from
              29 million digits to 45 million digits.

              Also, the largest factor in Vaughn's effort was that his application was distributed over seven machines. I only had one. I had access to seven CPUs, but they had more important things to spend their time on. Thus, I simply could not keep up with his much faster application on his incredible amount of CPU power he has available. It was a great effort, and I look forward to his analysis of the 20 digit set.

              SUNDAY, FEBRUARY 3, 2008 UPDATE:

              Fifteen months after completing processing the 19 digit numbers, Vaughn Suite has completed processing all 20 digit numbers by distributing the work into 15 subsets and using the Pentium 4 HT and 2 Athlon XP machines from the 19 digit processing and also three more powerful computers: an Athlon 64, an Athlon 64 X2, and a Core 2 Quad machine. The subsets were executed simultaneously on different machines, or in multiple threads on the machines with hyperthreading or multi-core capabilities (Pentium 4 HT, Athlon X2, Core-2 Quad).

              Of the 5,808,378,560,022 numbers checked, there were 5,459,760,062,742 lychrels (94.00%), while 348,618,497,280 numbers resolved into palindromes.

              Cumulative processing time on all the machines was 131,146,531 seconds = 1517.9 days (4 years and 2 months), but processing started January 6, 2007 and finished January 22, 2008. There are 58,083,785,600,220 (10 times as many) 21 digit numbers to be checked, so that processing of that entire set of numbers will take much longer with the current machines.

              Vaughn reports that the Core-2 machine was most responsible for the quick completion since it runs optimized reverse and add software 1.7 times as fast as the next fastest processor (Athlon X2), twice as fast as the Athlon 64, 2.5 times as fast as the Athlon XPs and almost 6 times as fast as each Pentium 4 thread in Hyperthreading mode.

              The new records are for 223, 253, 254, 255, 256 & 257 iterations:
              The 20 digit number 10,000,000,039,513,841,287 solves after 223 iterations, found on September 20, 2007.
              The 20 digit number 70,000,000,000,507,277,299 solves after 253 iterations, found on September 13, 2007.
              The 20 digit number 10,200,000,000,708,183,947 solves after 254 iterations, found on March 28, 2007.
              The 20 digit number 10,022,000,904,998,799,523 solves after 255 iterations, found on December 3, 2007.
              The 20 digit number 10,000,000,039,395,795,416 solves after 256 iterations, found on September 20, 2007.
              The 20 digit number 10,200,000,000,065,287,900 solves after 257 iterations, found on March 28, 2007.

              No longer iteration delays were found, and no iterations between 237 iterations and 252 were found. The following iteration records have not yet been discovered: 237, 238, 239, 240, 241, 242, 243, 244, 245, 246, 247, 248, 249, 250, 251, 252.

              APRIL 26, 2019 UPDATE:

              Quoted from Rob van Nobelen:

              "I have completed all 21 digit numbers and the longest sequence found was 256 (which just maps to the 261 sequence of the 19 digit numbers). I am now onto the 23 digit numbers and have finally found a new record of 288 steps!
              ...
              I skipped 22 (digit numbers) because generally the even length number don't seem to have the same chance of leading to a longer sequence. I am only about 2% through the 23 digit numbers so quite lucky to find a new record early on. I doubt there will be a higher one in the 23 digit range.
              "

              "The best result for 21 digits is 100800000429004749950 (256 steps) which just maps onto the same sequence as the 261 step maximum for 19 digits."


              NEW WORLD RECORD - APRIL 26, 2019
              "The 23 digit number is: 12000700000025339936491 which solves in 288 steps.
              Found 26 April 2019 (6:57 am NZ time).


              "Some of the missing entries for number of steps (there are thousands of these as you know so have just picked some random ones):

              223: 158009708000929957990 (21 digits)
              224: 9300005529999353899 (19 digits)
              237: not found
              238: 40000000000021391578709 (23 digits)
              239: 15844005200010990299995 (23 digits)
              240: 10080000010009595119352 (23 digits)
              241: 13200130000005299908990 (23 digits)
              242: not found
              243: not found
              244: not found
              245: 90000000000010051667559 (23 digits)
              246: 10004013000009999293778 (23 digits)
              247: 12002200550029932991893 (23 digits)
              248: 10500020000017719681951 (23 digits)
              249: 10800494000001399940920 (23 digits)
              250: 10080000400000911869790 (23 digits)
              251: 500000061109999990549 (21 digits)
              252: 200500000000690299779 (21 digits)
              253: 190800100000349099794 (21 digits)
              254: 104000230000299204914 (21 digits)
              255: 119009000000167998991 (21 digits)
              256: 108030007068981896960 (21 digits)
              257: not found
              258: 3000000049999288679 (19 digits)
              259: 1005020001599939785 (19 digits)
              "


              Palindrome Integer Sequences

              The On-Line Encyclopedia of Integer Sequences, maintained by Neil J. A. Sloane, has quite a few integer sequences regarding palindromic numbers.

              My world records page is mentioned in the following:

              • A006960 - The Reverse and Add! sequence starting with 196.
              • A023108 - Positive integers which apparently never result in a palindrome under repeated applications of the function f(x) = x + (x with digits reversed).
              • A023109 - Smallest number which requires exactly n iterations of Reverse and Add to reach a palindrome.
              • A033665 - Number of 'Reverse and Add' steps needed to reach a palindrome, or -1 if never reaches a palindrome.
              • A033670 - Reverse and Add! trajectory of 89.
              • A065198 - n sets a new record for the number of 'Reverse and Add' steps needed to reach a palindrome starting with n.
              • A065199 - Records for the number of 'Reverse and Add' steps needed to reach a palindrome.
              The following three were specifically created from my Most Delayed Palindromic Number World Records:
              • A072216 - Consider the Reverse and Add! problem (cf. A001127); of all the n-digit numbers N which eventually reach a palindrome, pick that number N which takes the greatest number of steps to converge (in case of a tie, pick the smallest N); sequence gives values of N.
              • A072217 - Consider the Reverse and Add! problem (cf. A001127); of all the n-digit numbers N which eventually reach a palindrome, pick that number N which takes the greatest number of steps to converge (in case of a tie, pick the smallest N); sequence gives number of steps N takes to converge.
              • A072218 - Consider the Reverse and Add! problem (cf. A001127); of all the n-digit numbers N which eventually reach a palindrome, pick that number N which takes the greatest number of steps to converge (in case of a tie, pick the smallest N); sequence gives palindrome that is reached.
              This On-Line Encyclopedia of Integer Sequences has over 100,000 sequences to date, and is well worth a look if you are interested in mathematical patterns.

               
              222,904 visitors since August 18, 1999
              2,041,753 total page views since May 13, 1999
              Jason Allen Doucette / Xona Games
                <sub id="xjxpf"><listing id="xjxpf"><menuitem id="xjxpf"></menuitem></listing></sub>

                <address id="xjxpf"></address><form id="xjxpf"><nobr id="xjxpf"><th id="xjxpf"></th></nobr></form>

                  <address id="xjxpf"><address id="xjxpf"><nobr id="xjxpf"></nobr></address></address><noframes id="xjxpf"><form id="xjxpf"></form>
                  <address id="xjxpf"><address id="xjxpf"></address></address>

                    <form id="xjxpf"></form>

                      <address id="xjxpf"></address>
                      <listing id="xjxpf"><listing id="xjxpf"><menuitem id="xjxpf"></menuitem></listing></listing>

                          <noframes id="xjxpf"><form id="xjxpf"><nobr id="xjxpf"></nobr></form>

                          <noframes id="xjxpf"><form id="xjxpf"></form>
                          <address id="xjxpf"></address>
                          <address id="xjxpf"><nobr id="xjxpf"><progress id="xjxpf"></progress></nobr></address><form id="xjxpf"><th id="xjxpf"><progress id="xjxpf"></progress></th></form>

                          <address id="xjxpf"></address>
                          <noframes id="xjxpf"><form id="xjxpf"></form><form id="xjxpf"></form>

                          news

                          game

                          education

                          constellation

                          culture

                          Go abroad

                          aviation

                          news

                          society